Published: January 21, 2022
By: Perry Gottesfeld
IN SEPTEMBER, Tesla announced that it would be phasing out the use of cobalt in its batteries, in an effort to produce a $25,000 electric vehicle within three years. If successful, this bold move will be an industry game changer, making electric vehicles competitive with conventional counterparts. But the announcement also underscores one of the fundamental challenges that will complicate the transition to electric vehicles. Without cobalt, there may be little financial incentive to recycle the massive batteries used to power the cars — and that could lead to an environmental disaster.
The switch to electric vehicles has been promoted as a major, necessary step to reduce greenhouse gas emissions in order to stave off the worst effects of a changing climate. The switch would also significantly reduce health risks associated with vehicle emissions. Every major auto manufacturer now has at least one electric vehicle in production, and some — including Daimler, Volkswagen, and General Motors — have pledged to phase out the production of gas and diesel engines entirely. More than a dozen countries, including many in Europe, have said they plan to ban sales of gasoline and diesel cars by 2040 or sooner. California also just announced a plan to phase out gas and diesel cars by 2035.
But electric cars have their own dirty little secret: Every electric vehicle, and most hybrid vehicles, rely on large lithium-ion batteries weighing hundreds of pounds. One of the largest, the battery for the Mercedes-Benz EQC, comes in at 1,400 pounds. Typically made with cobalt, nickel, and manganese, among other components, these batteries cost thousands of dollars and come with an environmental burden: They require ingredients sourced from polluting mines and smelters around the world, and they can ultimately contaminate soil and water supplies if improperly disposed.
In the rush to embrace this technology, auto companies are adopting the same pretense that has been embraced by the plastics industry: They are claiming that used batteries will be recycled. However, the truth is being swept under the rug. None of the lithium-ion batteries in electric vehicles are recyclable in the same sense that paper, glass, and lead car batteries are. Although efforts to improve recycling methods are underway, generally only around half the materials in these batteries are currently extracted and repurposed. And without the most valuable ingredients, there will be little economic incentive to invest in recycling technologies. The result, if nothing is done to tip the scales, could be a massive health and environmental crisis.
Despite ongoing research into recycling technology, this situation is unlikely to resolve itself. Lithium-ion battery makers have yet to develop the technology that can economically extract components in a form that can be used to make new lithium-ion batteries. Rather, the batteries are typically processed to remove the cobalt and a few other expensive metals, with much of the remainder released as air emissions or used as filler in concrete or other construction products. This is one reason why less than 5 percent of lithium-ion batteries are currently recycled.
Complicating matters further, different battery makers use different ingredients, cells, and modules, which makes the extraction process less efficient and more expensive. In fact, manufacturers are not even required to disclose the contents of their batteries to would-be recyclers.
In the rush to embrace this technology, auto companies are adopting the same pretense that has been embraced by the plastics industry.
To account for the inevitable growth in this waste stream, manufacturers and electric vehicle advocates are touting the potential for these batteries to be reused after their useful life in vehicles has been realized. Some companies have launched efforts to repurpose these high voltage, flammable electric vehicle batteries for solar energy storage and other backup power applications by rebuilding batteries using a combination of reused and new parts. But even if these efforts succeed in developing technologies to safely and economically remove, transport, dismantle, and remanufacture batteries, this would simply delay a battery’s ultimate fate by a few years.
The business case for recycling will become even more tenuous as Tesla and other car manufacturers take steps to lower costs by eliminating the most expensive metal components from their battery designs. Even if auto companies succeed only at reducing the concentration of these components, financial incentives will be needed to ensure that these batteries are collected and recycled. These subsidies will need to make up for the difference between the cost of transporting and processing spent batteries and the value of the extracted materials.
Without these incentives, lithium-ion batteries will be dumped, incinerated, or exported to countries with weaker standards, where they will contaminate the environment and threaten public health. Nickel has been shown to cause lung and nasal cancers, reduce lung function, and cause bronchitis. Cobalt can cause serious health conditions such as asthma and pneumonia, and it is a possible carcinogen. Exposure to manganese can result in respiratory problems, loss of coordination, and other neurological problems.
We have already started shifting the burden of lithium-ion battery disposal to low- and middle-income countries, many of which lack stringent environmental safeguards and the facilities to recycle or otherwise process used batteries in an environmentally sound way. Some have even put in place incentives, including tax waivers, to encourage used electric and hybrid vehicle imports. A recent United Nations report found that hundreds of thousands of electric and hybrid vehicles are being exported annually from Japan, the E.U. and the U.S. to countries like Sri Lanka and Mauritius.
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